Discrete repetition sliding mode control method for inverter

A control method and inverter technology, which are applied in the direction of converting AC power input to DC power output, output power conversion devices, electrical components, etc. Performance, the effect of faster dynamic response

Active Publication Date: 2017-11-14
TAIYUAN UNIV OF TECH
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Problems solved by technology

These methods improve the steady-state tracking ability of sliding mode control to a certain extent, but they cannot well compensate the output voltage distortion caused by nonlinear loads.

Method used

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  • Discrete repetition sliding mode control method for inverter
  • Discrete repetition sliding mode control method for inverter
  • Discrete repetition sliding mode control method for inverter

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Embodiment Construction

[0058] A discrete repetitive sliding mode control method for an inverter, the control method is based on repetitive control and sliding mode control, the so-called sliding mode control is designed based on the method of equivalent control in the discrete domain; the approach rate of the sliding mode control adopts Exponential double-power approach rate; the so-called repetitive control includes repetitive internal model, leading link and compensator, which are embedded in the forward error channel of sliding mode control; the following is the discrete repetitive sliding mode control method for inverters based on the accompanying drawings. Further clarification.

[0059] attached figure 1 is the inverter system diagram. in V dc is the DC power supply; o is the virtual midpoint of the DC power supply, and n is the neutral point of the output voltage; L f is the filter inductance, r is the parasitic resistance of the filter inductor; C f is the filter capacitor; S an ...

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Abstract

According to a discrete repetition sliding mode control method for an inverter, a difference between preset inverter voltage and actual inverter voltage is used as a repetition sliding mode controller error; the preset inverter voltage is as an input of a feedforward transfer function and an index double-power approach rate; a summation of a repeated controlled output and a repeated sliding mode controller error is used as the input of the sliding mode controller on the condition of equivalent control; and a summation of the output of the feedfoward transfer function, the output of the sliding mode controller and the output of the index double-power approach rate is used as a control signal for switching on or switching off an inverter bridge switch tube in an inversion step. According to the discrete repetition sliding mode control mode, repeated control and sliding mode control are combined based on an equivalent control method in a discrete domain, thereby realizing advantages of high state precision in repeated control and high dynamic speed and high robustness in sliding mode control. Furthermore the index double-power approach rate can improve system dynamic response speed. According to the discrete repetition sliding mode control method, designing is performed in the discrete domain, and a result more accords with an actual system.

Description

technical field [0001] The invention relates to an inverter control method, in particular to an inverter discrete control method based on repetitive control and sliding mode control. Background technique [0002] Due to the advantages of simple structure, flexible control, and strong adaptability, inverters are widely used in the fields of uninterruptible power supply UPS, motor control, power quality management, and new energy grid connection. [0003] At present, with the development of power electronics technology, a large number of nonlinear loads are connected to the inverter, which puts forward higher requirements on the performance of the inverter. Common inverter control methods include hysteresis control, proportional integral (PI) control, proportional resonance (PR) control, deadbeat control, and repetitive control. These methods have their own advantages and disadvantages, and they cannot have the advantages of high steady-state accuracy, fast dynamic response a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02M7/5387
CPCH02M7/53873
Inventor 郑丽君许春雨江法洋耿蒲龙高云广宋建成田慕琴
Owner TAIYUAN UNIV OF TECH
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